中华放射学杂志
中華放射學雜誌
중화방사학잡지
Chinese Journal of Radiology
2010年
12期
1316-1319
,共4页
赵永霞%秦维昌%黄玲%张晓晶%亓恒涛%刘传亚%王巍
趙永霞%秦維昌%黃玲%張曉晶%亓恆濤%劉傳亞%王巍
조영하%진유창%황령%장효정%기항도%류전아%왕외
放射摄影术,胸部%辐射剂量%质量控制
放射攝影術,胸部%輻射劑量%質量控製
방사섭영술,흉부%복사제량%질량공제
Radiography,thoracic%Radiation dosage%Quality control
目的 探讨成人胸部不同厚度高千伏DR的适当电压千伏值.方法 用不同厚度的聚甲基丙烯酸甲酯(PMMA)模拟不同成人胸部厚度,用不同电压、自动曝光控制(AEC)摄影,记录入射体表剂量(ESD)、获取模体影像并计算影像质量因子(IQF),绘制ESD和IQF之间的曲线.将一块厚度为1.8 cm(5 cm×5 cm)的PMMA作为对比物放在上述不同厚度PMMA上,用上述摄影方式和条件对其曝光,记录ESD,获取PMMA组合影像并计算信噪比(SNR)及影像质量因子倒数(IQFinv).结果 不同胸厚的ESD均随着摄影电压的上升而下降,不同胸厚影像的IQFinv和SNR也都随着摄影电压的上升而下降.当摄影电压分别是70、100、140 kV时,胸厚为17.5 cm的ESD分别为0.22、0.09、0.06 mGy,IQF分别为43.3、58.8、72.0,SNR分别为7.5、6.2、5.0;胸厚为22.5 cm的ESD分别为0.37、0.12、0.06 mGy,IQF分别为56.0、61.4、65.3,SNR分别为6.4、5.2、3.8;胸厚为27.0 cm的ESD分别为0.52、0.20、0.09 mGy,IQF分别为54.2、64.3、91.0,SNR分别为6.0、4.8、3.5;胸厚为31.5 cm的ESD分别为0.53、0.24、0.10 mGy,IQF分别为53.2、66.8、95.3,SNR分别为5.7、4.5、3.0.结论 胸部数字高千伏X线摄影对于不同体质、胸厚的受检者不应使用一个固定千伏值进行摄影,应根据具体情况选择不同的千伏值.
目的 探討成人胸部不同厚度高韆伏DR的適噹電壓韆伏值.方法 用不同厚度的聚甲基丙烯痠甲酯(PMMA)模擬不同成人胸部厚度,用不同電壓、自動曝光控製(AEC)攝影,記錄入射體錶劑量(ESD)、穫取模體影像併計算影像質量因子(IQF),繪製ESD和IQF之間的麯線.將一塊厚度為1.8 cm(5 cm×5 cm)的PMMA作為對比物放在上述不同厚度PMMA上,用上述攝影方式和條件對其曝光,記錄ESD,穫取PMMA組閤影像併計算信譟比(SNR)及影像質量因子倒數(IQFinv).結果 不同胸厚的ESD均隨著攝影電壓的上升而下降,不同胸厚影像的IQFinv和SNR也都隨著攝影電壓的上升而下降.噹攝影電壓分彆是70、100、140 kV時,胸厚為17.5 cm的ESD分彆為0.22、0.09、0.06 mGy,IQF分彆為43.3、58.8、72.0,SNR分彆為7.5、6.2、5.0;胸厚為22.5 cm的ESD分彆為0.37、0.12、0.06 mGy,IQF分彆為56.0、61.4、65.3,SNR分彆為6.4、5.2、3.8;胸厚為27.0 cm的ESD分彆為0.52、0.20、0.09 mGy,IQF分彆為54.2、64.3、91.0,SNR分彆為6.0、4.8、3.5;胸厚為31.5 cm的ESD分彆為0.53、0.24、0.10 mGy,IQF分彆為53.2、66.8、95.3,SNR分彆為5.7、4.5、3.0.結論 胸部數字高韆伏X線攝影對于不同體質、胸厚的受檢者不應使用一箇固定韆伏值進行攝影,應根據具體情況選擇不同的韆伏值.
목적 탐토성인흉부불동후도고천복DR적괄당전압천복치.방법 용불동후도적취갑기병희산갑지(PMMA)모의불동성인흉부후도,용불동전압、자동폭광공제(AEC)섭영,기록입사체표제량(ESD)、획취모체영상병계산영상질량인자(IQF),회제ESD화IQF지간적곡선.장일괴후도위1.8 cm(5 cm×5 cm)적PMMA작위대비물방재상술불동후도PMMA상,용상술섭영방식화조건대기폭광,기록ESD,획취PMMA조합영상병계산신조비(SNR)급영상질량인자도수(IQFinv).결과 불동흉후적ESD균수착섭영전압적상승이하강,불동흉후영상적IQFinv화SNR야도수착섭영전압적상승이하강.당섭영전압분별시70、100、140 kV시,흉후위17.5 cm적ESD분별위0.22、0.09、0.06 mGy,IQF분별위43.3、58.8、72.0,SNR분별위7.5、6.2、5.0;흉후위22.5 cm적ESD분별위0.37、0.12、0.06 mGy,IQF분별위56.0、61.4、65.3,SNR분별위6.4、5.2、3.8;흉후위27.0 cm적ESD분별위0.52、0.20、0.09 mGy,IQF분별위54.2、64.3、91.0,SNR분별위6.0、4.8、3.5;흉후위31.5 cm적ESD분별위0.53、0.24、0.10 mGy,IQF분별위53.2、66.8、95.3,SNR분별위5.7、4.5、3.0.결론 흉부수자고천복X선섭영대우불동체질、흉후적수검자불응사용일개고정천복치진행섭영,응근거구체정황선택불동적천복치.
Objective To explore the optimum voltage for digital chest radiography in adult. Methods PMMAs of Different thickness (7.2, 9.0, 10. 8 and 12. 6 cm) were used to simulate chest of different depth ( 17. 5, 22. 5, 27.0 and 32. 5 cm). The combinants of contrast-detail Cdrad 2.0 phantom and above PMMAs were exposed with automatic exposure control (AEC) and different tube voltages. The images of these combinants were obtained and the entrance surface dose (ESD) was recorded. The imaging quality factor (IQF) was calculated and the curves were drawn between the ESD,IQF and kV. The PMMAs of different thickness, on which a contrast object ( PMAA of 5 cm diameter and 1.8 cm thickness ) was placed, were exposed with the same condition used for above test. Their images were obtained and SNRs were calculated. Results The ESD, SNR and IQFinv of different chest depth decreased with increase of kV.When tube voltages of 70, 100 and 140 kV were used, for 17. 5 cm chest depth, the ESD was 0. 22, 0. 09 and 0. 06 mGy, the IQF was 43.3, 58. 8 and 72. 0, the SNR was 7.5, 6. 2 and 5.0; for 22. 5 cm chest depth, the ESD was 0.37, 0.12 and 0.06 mGy, the IQF was 56. 0, 61.4 and 65.3, the SNR was 6. 4, 5.2 and 3. 8; for 27. 0 cm chest depth, the ESD was 0. 52, 0. 20 and 0. 09 mGy, the IQF was 54. 2, 64. 3 and 91. 0, the SNR was 6. 0, 4. 8 and 3. 5; for 31.5 cm chest depth, the ESD was 0.53, 0.24 and 0. 10 mGy,the IQF was 53.2, 66. 8 and 95.3, the SNR was 5. 7, 4. 5 and 3. 0. Conclusion To balance ESD, SNR and IQF, proper tube voltage should be chosen for chest radiography according to thickness and constitution of patients.